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Precise orbit determination for quad-constellation satellites at Wuhan University: strategy, result validation, and comparison
by
Xu, Xiaolong
, Zhao, Qile
, Liu, Jingnan
, Guo, Jing
in
Accuracy
/ Archives & records
/ Constellations
/ Data processing
/ Earth and Environmental Science
/ Earth Sciences
/ Geodetics
/ Geophysics/Geodesy
/ Global positioning systems
/ GPS
/ Original Article
/ Radiation
/ Radiation pressure
/ Satellites
/ Solar radiation
2016
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Precise orbit determination for quad-constellation satellites at Wuhan University: strategy, result validation, and comparison
by
Xu, Xiaolong
, Zhao, Qile
, Liu, Jingnan
, Guo, Jing
in
Accuracy
/ Archives & records
/ Constellations
/ Data processing
/ Earth and Environmental Science
/ Earth Sciences
/ Geodetics
/ Geophysics/Geodesy
/ Global positioning systems
/ GPS
/ Original Article
/ Radiation
/ Radiation pressure
/ Satellites
/ Solar radiation
2016
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Precise orbit determination for quad-constellation satellites at Wuhan University: strategy, result validation, and comparison
by
Xu, Xiaolong
, Zhao, Qile
, Liu, Jingnan
, Guo, Jing
in
Accuracy
/ Archives & records
/ Constellations
/ Data processing
/ Earth and Environmental Science
/ Earth Sciences
/ Geodetics
/ Geophysics/Geodesy
/ Global positioning systems
/ GPS
/ Original Article
/ Radiation
/ Radiation pressure
/ Satellites
/ Solar radiation
2016
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Precise orbit determination for quad-constellation satellites at Wuhan University: strategy, result validation, and comparison
Journal Article
Precise orbit determination for quad-constellation satellites at Wuhan University: strategy, result validation, and comparison
2016
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Overview
This contribution summarizes the strategy used by Wuhan University (WHU) to determine precise orbit and clock products for Multi-GNSS Experiment (MGEX) of the International GNSS Service (IGS). In particular, the satellite attitude, phase center corrections, solar radiation pressure model developed and used for BDS satellites are addressed. In addition, this contribution analyzes the orbit and clock quality of the quad-constellation products from MGEX Analysis Centers (ACs) for a common time period of 1 year (2014). With IGS final GPS and GLONASS products as the reference, Multi-GNSS products of WHU (indicated by WUM) show the best agreement among these products from all MGEX ACs in both accuracy and stability. 3D Day Boundary Discontinuities (DBDs) range from 8 to 27 cm for Galileo-IOV satellites among all ACs’ products, whereas WUM ones are the largest (about 26.2 cm). Among three types of BDS satellites, MEOs show the smallest DBDs from 10 to 27 cm, whereas the DBDs for all ACs products are at decimeter to meter level for GEOs and one to three decimeter for IGSOs, respectively. As to the satellite laser ranging (SLR) validation for Galileo-IOV satellites, the accuracy evaluated by SLR residuals is at the one decimeter level with the well-known systematic bias of about
-
5
cm for all ACs. For BDS satellites, the accuracy could reach decimeter level, one decimeter level, and centimeter level for GEOs, IGSOs, and MEOs, respectively. However, there is a noticeable bias in GEO SLR residuals. In addition, systematic errors dependent on orbit angle related to mismodeled solar radiation pressure (SRP) are present for BDS GEOs and IGSOs. The results of Multi-GNSS combined kinematic PPP demonstrate that the best accuracy of position and fastest convergence speed have been achieved using WUM products, particularly in the Up direction. Furthermore, the accuracy of static BDS only PPP degrades when the BDS IGSO and MEO satellites switches to orbit-normal orientation, particularly for COM products, whereas the WUM show the slightest degradation.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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